Functional significance and induction by solar radiation of ultraviolet-absorbing sunscreens in field-grown soybean crops |
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| Authors: | Mazza C A Boccalandro H E Giordano C V Battista D Scopel A L Ballaré C L |
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| Institution: | Agricultural Plant Physiology and Ecology Research Institute (IFEVA), University of Buenos Aires and Consejo Nacional de Investigaciones Cient?ificas y T?ecnicas, Avenida San Mart?in 4453, 1417 Buenos Aires, Argentina. |
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| Abstract: | Colorless phenylpropanoid derivatives are known to protect plants from ultraviolet (UV) radiation, but their photoregulation and physiological roles under field conditions have not been investigated in detail. Here we describe a fast method to estimate the degree of UV penetration into photosynthetic tissue, which is based on chlorophyll fluorescence imaging. In Arabidopsis this technique clearly separated the UV-hypersensitive transparent testa (tt) tt5 and tt6 mutants from the wild type (WT) and tt3, tt4, and tt7 mutants. In field-grown soybean (Glycine max), we found significant differences in UV penetration among cultivars with different levels of leaf phenolics, and between plants grown under contrasting levels of solar UV-B. The reduction in UV penetration induced by ambient UV-B had direct implications for DNA integrity in the underlying leaf tissue; thus, the number of cyclobutane pyrimidine dimers caused by a short exposure to solar UV-B was much larger in leaves with high UV transmittance than in leaves pretreated with solar UV-B to increase the content phenylpropanoids. Most of the phenylpropanoid response to solar UV in field-grown soybeans was induced by the UV-B component (lambda
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